In three-dimensional (3D) space, divided into region 1 (x < 0) and region 2 (x > 0), where the conductivities for regions 1 and 2 are equal to zero (o=o₂ = 0), the permittivity for region 1 is &₁ = 2, the permittivity for region 2 is & =3, and the electromagnetic field intensity for region 1 (E, ) is given by E= 6a, +5ā, −4ā.. Find the following: (a) the electromagnetic field intensity for region 2, E₂ (b) the electric flux density, D
In three-dimensional (3D) space, divided into region 1 (x < 0) and region 2 (x > 0), where the conductivities for regions 1 and 2 are equal to zero (o=o₂ = 0), the permittivity for region 1 is &₁ = 2, the permittivity for region 2 is & =3, and the electromagnetic field intensity for region 1 (E, ) is given by E= 6a, +5ā, −4ā.. Find the following: (a) the electromagnetic field intensity for region 2, E₂ (b) the electric flux density, D
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ISBN:9780133923605
Author:Robert L. Boylestad
Publisher:Robert L. Boylestad
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Transcribed Image Text:In three-dimensional (3D) space, divided into region 1 (x < 0) and
region 2 (x > 0), where the conductivities for regions 1 and 2 are
equal to zero (o=o₂ = 0), the permittivity for region 1 is &₁ = 2,
the permittivity for region 2 is &₁ =3, and the electromagnetic
field intensity for region 1 (E, ) is given by E = 6ā +5ā, — 4ā….
Find the following:
(a) the electromagnetic field intensity for region 2, E₂
(b) the electric flux density, D
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